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Patent 1223318 Summary

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Claims and Abstract availability

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(12) Patent: (11) CA 1223318
(21) Application Number: 1223318
(54) English Title: LOCKOUT POSITIONABLE SENSING UNIT FOR ROW CROP HARVESTER GUIDANCE SYSTEM
(54) French Title: PALPEUR NEUTRALISABLE DE MECANISME-GUIDE POUR MACHINE DE RECOLTE DANS LES PLANTATIONS EN RANGEE
Status: Term Expired - Post Grant
Bibliographic Data
(51) International Patent Classification (IPC):
  • G08B 1/02 (2006.01)
  • A01B 69/00 (2006.01)
  • A01D 45/02 (2006.01)
  • A01D 45/10 (2006.01)
(72) Inventors :
  • DE BUHR, HAROLD E. (United States of America)
(73) Owners :
  • DEERE & COMPANY
(71) Applicants :
  • DEERE & COMPANY (United States of America)
(74) Agent: BORDEN LADNER GERVAIS LLP
(74) Associate agent:
(45) Issued: 1987-06-23
(22) Filed Date: 1984-08-22
Availability of licence: N/A
Dedicated to the Public: N/A
(25) Language of filing: English

Patent Cooperation Treaty (PCT): No

(30) Application Priority Data:
Application No. Country/Territory Date
529,426 (United States of America) 1983-09-06

Abstracts

English Abstract


LOCKOUT POSITIONABLE SENSING UNIT FOR ROW CROP HARVESTER
GUIDANCE SYSTEM
Abstract of the Disclosure
A sensing unit for a row crop harvester guidance system is
attachable to the header of a row crop harvester. The header
comprises first and second crop dividers. A crop receiving
passageway is formed between the dividers. The sensing unit
comprises a rotatably mounted crop engaging arm biased into a
crop engaging position in which the arm is disposed in the
passageway. The arm is movable into a lockout position when
reliable operation of the guidance system is not possible
because of crop or field conditions.


Claims

Note: Claims are shown in the official language in which they were submitted.


THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE PROPERTY OR PRIVILEGE
IS CLAIMED ARE DEFINED AS FOLLOWS:
1. In a row crop sensing unit for a harvester, said
harvester comprising:
first and second crop dividers, each having first and second
sidewalls;
a crop receiving passageway defined between said first
sidewall of said first divider and said first sidewall of said
second divider;
said unit comprising:
a rotatably mounted crop engaging arm;
means for biasing said arm into a crop engaging position
wherein said arm projects outwardly from said first sidewall of
said first divider into said passageway;
a frame mountable on said first divider;
the improvement wherein said arm is movable to a lockout
position wherein said arm is entirely under the sidewalls of
said first divider.
2. The unit of claim 1 further comprising a means for
locking said arm in said lockout position.
3. The unit of claim 2:
further comprising an arm support rotatably mounted in said
frame, one end of said arm supported by said support; and
wherein said frame and arm support have alignable openings
therein when said arm is in said lockout position; and
wherein said lock means comprises (1) said openings in said
support and frame and (2) a pin insertable through said openings
when said arm is in said lockout position.
- 16 -

Description

Note: Descriptions are shown in the official language in which they were submitted.


LOCKOUT POSTTIONABL~ SENSJNG U~IJT FOR R~ l CRC~P ~IAP~1ESTE~P
GUIDANCE 5YSTEM
Cross ~eference to Related Ape~_cations
_ _ _ _
Canada Patent ~pplication, Serial No. 460,979 filed on 14
~ugust 1984 in the name of Williams, entitled SENSING UNIT
FOR ROW CROP H~RVESTER GUIDANC~ SYSTEM and assigned to the
assignee of the invention herein is directed to the internal
construction oE a sensing unit for a row crop guidance system
for a pull type harvester~ The invention disclosed and claimed
l in application Serial No. 460,979 is disclosed herein in
sections III and V, solely for the purpose of completeness of
desc~iption of the operative environment of the invention
claimed herein and thus forms no part of the invention claimed
herein.
Canada Patent Application, Serial No. 461,560 filed on 22
~ugust 1984 in the names of deBuhr et al, entitled RETROFITTABLE
SENSING UNIT FOR ROW CROP HARVESTER GUIDANCE SYSTEM and assigned
to the assignee of the invention herein is direc~ed to a sensing
unit for a row crop harvester guidance system which is simply
attachable and retrofittable to harvester headers having
different sizes and corresponding to d;Eferent row spacings.
The invention disclosed and claimed in application Serial No.
461,560 is disclosed herein in section IT solely for the purpose
of completeness of description of the operative environment of
the invention claimed herein.
Canada Patent ~pplicationr Serial No. 460,864 filed 13
August 1984 in the name of Demorest~ entitled ROW CROP HARVESTER
GUIDANCE SYSTEM CO~TROL CIRCUIT and assigned to the assignee of
the invention herein is directed to a control circuit for
operati.vely connecting the sensing unit of a row crop guidance
system to a hydraulic cylinder for automatically controlling the
tongue position of a pull type harvester. The invention
disclosed and claimed in this application Serial No. 460,864 is
disclosed herein in sections VI and VII solely for the purpose
of completeness of description of the operative environment of
the invention c].aimed herein and thus forms no part of the
invention claimed herein.
- 1 -

f~ ~
1 Backqround of the Invention
This invention relates to a row crop guidance system for
main~aining the alignment of a pull type forage harves~er ~ith
the crop rows being harvested. ~ore par~icularly, the invention
relates to the internal construction of a sensing unit for such
a row crop harvester guidance system.
One type of commercially available pull type forage
harvester which is used to harvest a variety of row crops such
as corn, sorghum~ sugar cane and the like includes a base unit
and an attached header. The base unit~header combination is
towed through a Eield with a tractor In the harvesting mode,
the harvester is positioned outboard of the tractor by operation
of a hydraulic cylinder connected to the tongue of the harvester
so that the ~owing ~ractor does not have to ride over the crop
prior to harvesting. When harvesting, the operator m~st look
behind himself freq~ently to maintain the alignment of the
harvester with the crop rows being harvested. After initially
aligning the tractor and harvester properly relative to the crop
rows, alignment is usually maintained by steering the tractor.
However, the requirement for the operator to look over his
shoulder frequently at the harvester leads to operator fatigue.
When not in use the harvester is also positionable behind the
tractor for transport.
To reduce operator fatig~e and to simplify the harvesting
operation, it has been proposed to provide a guidance system for
automatically maintaining the alignment of a pull type harvester
with crop rows being harvested by physically sensing the
loca~ion of the crop row relative to the harvester. One
proposal is disclosed in U. S. Patent No. 4,295,323. One
problem in the design of such systems is ~hat the system must
provide reliable operation under a variety of crop and field
conditions including good standing and down crop conditions,
straight and contour rows, clean or weed and grass infested
fields and smooth to very rocky fields, wet and muddy fields and
hilly and level fields~ In addition, stalk strengths vary with
the type of crop and crops of the same type have varying stalk
strengths due to exposure to different growing conditions
including factors s~ch as moisture level, amount of fertilizer
used, cultivation practices and thickness of planting.
-- 2 --

l Summary of the Invention
Accordingly, it is an object of this invention to provide a
row crop guidance system for automatically maintaining alignment
of a harvester wi~h a crop row.
Another object of the invention is to provide such a system
which will operate reliably in a variety of different crop and
field conditions.
Still another object of the invention is to provide a
sensing unit which is positionable in a lockout or inoperative
position when reliable operation of the guidance system is not
possible because of crop or field conditions.
These and other objects of the invention, which will be
apparent from a consideration of the following detailed
description and accompanying claims, are accomplished by a
sensing unit for a row crop harvester guidance system in the
following manner. The unit is attachable to the header of a row
crop harvester. A preferred harves~er header for use with the
sensing unit comprises first and second dividers. Each divider
has a pair of sidewalls. A crop receiving passageway is defined
between one of the sidewalls of the first divider and one of the
sidewalls of the second divider. The unit comprises a rotatably
mounted crop engaging ar~. The arm is biased into a crop
engaging position in which it projects outwardly from said sne
sidewall of the first divider into the passageway. In
accordance with the improvement provided by this invention, the
arm is movable to a lockout position in which the arm is
entirely under the sidewalls of the first divider. Means are
~ provided to lock the arm in the lockout position~ In a
\ preferred embodiment, the lockout means comprises (1) alignable
openings in an arm support and the sensing unit frame and (2) a
pin insertable through the openings when the arm is in the
lockout positionO Thus, when use of the guidance system is not
desirable~ the arm may be safely stored in the lvckout position
and removal of the sensing unit is unnecessary.
Brief Description of the Drawings
FIG. 1 is a fragmentary, schematic view-of a pull type
forage harvester incorporating a sensing unit for a row crop
harvester guidance system in accordance with the features of
this invention.
~ 3 --

3~
1 FIG. 2 is a fragmentaryl plan vie~ (with parts omit~ed for
clarity) of one of the sensing units shown in FIG. lo
FIG. 3 is a cross-sectional view of the sensing unit ~ho-,7n
in FIG. 2 t3ken along lines 3--3.
FIG. 4 is a s;de, e]evational view of the harvester divider
and sensing unit of FIG. 1 taken along lines 4--4.
FIG. 5 is a side, elevational view similar to F~G. 4 and
showing an alternate embodiment of a sensing unit for a row crop
guidance system~
FTG. 6 is a cross-sectiona] view o the sensing unit of
~IG. 5 taken along lines 6--6.
FIG. 7 is a perspective view of a housing co~er ~or the
sensing unit shown in FIG. 4.
FIG. 8 is a circuit diagra~ oE the guidance control circuit
of the row crop guidance system shown in FIG~ 1.
Description of the Preferred Embodiments
Such terms as forward, rearwardr vertical, horizontal and
lateral are used for convenience and are determined by reEerence
to the machine in its standard operating position and relative
to the direction of forward travel. The terms left and right
are determined by standing at the rear of the machine and facing
in the direction of travel.
I. GENERAL
Reference is now made to FIG. 1 of the drawings which
illustrates in fragmentary and schematic form a towed row crop
harvester 11 with a guidance system 13, in accordance with the
invention herein, installed thereon. The harvester 11 is
~comprised of a base unit 15 and a header 17 which are used to
harvest a variety oF row crops such as corn, sorghum, sugar cane
3Q and the likeO Guidance system 13 automatically senses the
location of harvester 11 relative to a crop row 18 and maintains
harvester ]1 properly aligned with crop row 18 for harvesting.
Header 17 is detachably mounted on the base unit 15 via a
conventional attaching bracket, for example, such as shown in
U. S. Patent No. 3,791,117. The header, except for components
of the guidance system/ is conventional and may be, for
example, a three-row, row crop header such as shown in U. S.
Patent No. 3,791,117 and manuactured by Deere & Company,
Moline, Illinois for its Models 3940 and 3960 forage
4o ?

1 harvesters~ It will be recognized by those skilled in the art
that this invention has equal applicability to headers for
harvestin~ two or more rows of crop. By way of fur~her example,
the invention herein is equally applicable to headers such as
di~closed in U. S. Patent No. 4,259,831 and U. S. Patent No.
4,115,983. Header 17 comprises four transversely spaced, side-
by-side, generally fore-and-aft, rearwardly converging,
downwardly and forwardly inclined crop dividers. For
simplicity~ the first and fourth dividers are not shown and only
the second divider 19 and the third divider 21 to which the
components of the guidance system 13 are attached are shown.
tThe dividers are numbered by counting left to right in FIG~
1). Crop dividers 19, 21 include fenders 23, 25 respectively,
(shown partially broken away), which terminate in points The
space between each crop divider 19, 21 form a generally fore-and-
aft crop receiving passageway 27. Similarly, other passageways
(not shown) are formed between the first divider (not shown) and
second divider 19 and between the third divider 21 and fourth
divider.
As is well known, the points of the dividers ride along the
ground between rows of standiny crop to separate down and
entangled cro~ as the base unit/header co~bination is towed
through the field. The fendees present smooth upper surfaces
which allow the crop to slide rearwardly along the ~op surface
of the fenders through an opening (not shown) in a rearattachment frame (not shown) of header 17 and into a throat (not
shown) of base unit 15~ Crop enterin~ through the throat passes
between feed rolls (not shown) in the base unit 15 which feed
the crop over a shear bar (not shown) to a cylindrical cutter
head (not shown) for cutting the crop in small pieces.
- 5 -

1 Base unit 15, except for components of the g~idance syst~
13 which are attached thereto, is conven~ional and may be a
model 3940 or 3960 harvester ba~e unit manufact~red by Deere ~
Company, Moline, Illinois. The harvester base unit 1~ is towed
by a tongue 16 mounted to the frame o ~he base unit on a pivot
31. The angular position of tongue 16 about pivot 31 and the
trailing position of harvester 11 behind a towing tractor (not
shown) are controllable via a double acting hydraulic cylinder
33. Cylinder 33 incl~des a housing 35 fixed to the frame of
b~se unit 15 and a piston rod 37 pivotally mounted to tongue 16.
Guidance system 13 automatically operates cylinder 33 to
maintain the alignment of header passageways 27 aligned with the
crop row 18 being harvested. By using guidance system 13 to
maintain alignment of passa~eway 27 with crop row 18, the
alignment of the rows of crop immediately adjacent row 18 on the
left and right is maintained with the passageways (not shown~
formed between the first divider and second divider 19 and
between the third divider 21 and the fourth divider (no~
shown). Guidance system 13 includes a pair of row crop sensing
units 41, 43 mounted respectively on dividers 19, 21 and a
guidance control circuit 45 connected between units 41~ 43 and
hydraulic cylinder 33. Units 41, 43 sense the deviation of row
18 from the longitudinal axis of passageway 27 and generate a
mechanical signal indicative thereof. Circuit 45 converts the
mechanical signal from units 41, 43 into an electrical signal
for controlling the operation of cylinder 33 to main~ain such
deviation within an acceptable range.
II. ROW CROP S~NSIN~ UNIT ATTACHMENT
The row crop sensing units 41, 43 can be simply attached to
the points of dividers 19, 21. Such dividers are eommonly
commercially available in at least ~wo sizes. One size
corresponds to a header desi~ned for harvestîng row crops with a
76.2 cm (30 inch) row spacing. Another size corresponds to a
header designed or harves~ing row crops with a 96.52 cm (38
inch) row spacing. Units 419 43 are easily retrofitted onto
commercially available headers of different sizes.
Reference is now made to ~IGS. 1 - 4 which illustrate in
detail a preferred embodiment o~ the sensing unit 41 which is
simply at~achable and retrofittable on divider ~oints. Unit 41
comprises (1) a rotatably mounted crop engaging arm 477 (2)
-- 6 --

1 means for biasing arm 47 into a crop engaginy position wherein
arm 47 projects outwardly from a right sidewall 49 in~co
passageway 27 and (3) a frame member or plate 51 in which arm 47
is rotatably supported. Frame member ~1 spans between and is
fixed to right sidewall 49 and a left sidewall 53. Frame member
51 is fixed to sidewalls 49, 53 via a pair of bolts 55, 57
inserted through respectively slots 59, Sl in plate 51 and holes
63 (FIG~ 4, only one shown) in left flange 65 and right flange
~7. Slots 59, 61 per~it ~rame member 51 to be attached to
dividers havin~ a range of spacings between sidewalls 49, 53 as
is commonly found ~or headers designed for different row crop
spacingsO The means for affixing frame member 51 in divider 19
further includes the formation of frame member 51 with a pair of
forwardly converging edges 76, 78 receivable within a divider
lS tip 68 fitted on the forwardly converging end of divider
sidewalls 4, 53. Support of unit 41 in divider 19 is further
aided by a brace 66 attached to right sidew~ll 49, Thus, in
order to attach unit 41 to divider 19, only minor modifications
of divider 19 are necessary. One hole (i.e. hole 631 is drilled
in each flange 65, 67. Also, the mounting of the divider points
to the header must be enhanced to aid in supporting the
additional weight of unit 410
An alternate embodiment of the means for 2ffixing frame
member 51 and divider 19 is shown in FIGS. 5 and 6. Identical
components in each of the embodiments are identified by the same
number. In accordance with this embodiment, the affixing means
includes a pair of clamping plates 69, 71 bolted to frame member
51,via bolts 73, 75 inser~ed through a pair of slotted openings
in plate S1 ~not shown, but identical to slots 59, 61 shown in
~IG. 2). Attachment is accomplished by sandwiching sldewall
flange 65 between clamping plate 69 and edge 76 of plate 51 and
sandwiching sidewall flange 67 between clamping plate 71 and
edge 78 of plate 51. As in the embodiment shown in FIG~ 2 the
converging edges 76, 78 are inserted into the ~ivider tip 68.
As will be apparent the embodiment shown in ~IGS. 5i 6~ is
identical to the embodiment shown in FIGS. 1 through 4 except
that the provicion of clamping plate 69, 71 eliminates ~he
necessity of drilling bolt holes 63 (only one shown~ in flanges
65/ 67, thereby further ~implifying ~he attachment procedure.
-- 7 --

1 Row crop sensing units 41, 43 are essentially identical
except that unit 41 is designed for operation on the left ~ide
of passageway 27 and unit ~3 is designed for operation on the
right side of the passageway 27. Thu~, the only differences in
construction are associated with the location of arms 47, 48.
Therefore, a detailed explanation of the struct~re of unit 43 is
deemed to be unwarranted.
III._MOUNTING FOR CROP ENGAGING ARM
Reference is now made primarily to FIGS~ 2 through 4 ~hich
illustrate a preferred embodiment of the mounting for crop
engaging arm 47 of uni~ 41.
Arm 47 is adjustably fixed in an arm support 77 including an
integral hex shaft 79 rotatably supported in frame member 51.
Support 77 includes a pair of ma~ing channels 81, 83 for
receiving and rigidly holding one end of arm 47 with a plurality
of bolts 85-870 A plurality of additional holes 90, 92 are
provided in channel 81 to permit the extenslon of arm from
channels 81, 83 to be adjustablea This permits the length of
arm 47 to be adjusted for adaptability of the row crop sensing
unit to headers designed for different row crop spacings. Arms
47, 48 are preferably spaced apart abo~t 10 to 14 cm regardless
of the header size~ Shaft 79 is rotatably supported in plate 51
via (1) a hex shaft bearing 91, (2) a spacer 93 coaxially
surrounding shaft 79 and t3) a switch actuator plate 95 fixed to
shaft 79 with a bolt 97 and washer 99. Plate 95 operates a
switch in guidance control circuit 45 in response to movement of
arm 47. Arm 47 is biased into a crop enga~ing position wherein
ar~ 47 projects outwardly from sidewall 4~ into passageway 27
via a torsion spring 101. Spring 101 has one end 102 fixed to a
pin 105 on actuator plate 95 and the other end 107 fixed to an
adjustable collar 109 via a bolt 111 extending through a slot
113 in plate 51. Bolt 111 is rigid with collar lOg and i5
adjusted so as to be freely movable in slot 113. The collar 109
is adjustable about the axis of shaft 79 to permit the bias of
spring 101 to be adjusted via a slot 115 in coll~r 109 and a
bolt 117 eigidly fixed in plate 51 and extending through slot
115. The bolt end extending through slot ~15 is peovided wi~h a
nut which may be loosened to permi~ adjustment of collar 109 and
tigh~ened to retain collar 109 in the adjusted position. Collar
10~ has a flange 119 with an opening 121 for receiving a tool
-- 8 --

1 s~ch as a screw driver to rotate collar 109 about the axis of
shaf~ 79 and adjust the ~ension on spring 101~ Opening 121 is
accessible to engagement with a ~ool from the left rear of unit
41. Adjustment of the tension or bias of spring 101 adjusts the
force required to move crop engaging arm 47. Variation of the
force is desirable because of the differing requirements to
harvest in different crop and field conditions and to provide
reliable actuation of arm 47 responsive to movement only by a
row of crop stalkst but not by other plants such as weeds or
grass. The force required to actuate arm 47 should be as high
as possible to avoid actuation of the arm by foreign matter such
as weeds, yet low eno~gh not to push over the row of crop stalks
which is to be sensed. Stalk strength varies with the type of
crop and crops of the same type will have varying stalk
strengths due to exposure to different growing conditions
includiMg factors such as moisture level, amount of fertilizer
used, cultivation practices, and thickness of planting.
The rotation of ar~ 47 is limited by a shock absorbing guide
125 fixed to arm support 77 and movable in a slot 123 in plate
51. Guide 125 includes tl~ a shaft or a bolt 127 in channel 81,
(2) inner and outer nonresilient liners 129, 131 ~preferrably
metal) and (3) an intermediate resilient liner 133 (preferrably
rubber). The inner, outer and intermediate liners 129, 131, 133
are mounted coaxially of shaft 127. Slot 1~3 is sized to permit
arm 47 to assume in the unactuated positicn a crop engaging
position in passageway 29, to recede completely under divider 19
if an obstruction is hit and then to spring back into the
opérating position. By arm 47 being able to completely r~cede
under divider 19 helps to prevent or reduce the amount of damage
incurred by unit 41 if a major obstruction such as a rock or
fence post is hit by arm 47. Guide 125 provides a long lasting
shock absorber for movement of arm 47, particularly when arm 47
is required to swing through its full range of ~ravel following
impact with an obstacle or even a crop stalk. The sandwiching
of rubber between metal provides resiliency and durability.
Arm 47 is shaped to help prevent material from hanging
thereon, particularly when it is necessary to back up when
harves~ing. First, arm 47 has a continuous portion (FIG. 1)
extending (a) outwardly of sidewall 49, (b) along passageway 27
and (c) then inwardly of sidewall 49. Secondly, the rear end of
_ g _

arm 47 extends in~ardly under divider 19 between flange 67 and
bar 66 which shield material fro~ the rear end of arm 47.
IV. C~OP ENGRGING ARM LOCROIJT POSITION
_
In accordance with the eature~ of the invention herein,
crop e~gaging arms 47, 48 of row crop sensing units 41, 43
respectively are movable between the crop engaging position
shown in full lines in FIG. 1 and a lockout or inoperative
position shown in dotted lines in FIG. 1. In the crop engaging
position arms 47, 48 project out~ardly from right sidewall 49 of
10 divider 19 and fro~ a left sidewall 135 of divider 21
respectively into passageway 27. In the lockout position, arm
47 is entirely under divider 19 between sidewalls 49~ 53 and arm
48 is entirely under divider 21 between sidewalls 135, 137.
Referring to FIG. ~, arm 47 may be retained in the lockout
15 position by a pin 139 inserted ~hrough a slot 141 in plate 51
and a hole 143 (FIG. 1) in arm support channel 81. Slo~ 141 and
hole 143 are aligned when ar~ 47 is in the lockout position
permitting pin 139 to be inserted therethro~gh. A locking pin
140 holds pin 139 in position. An identical pin, hole and slot
arrangement is provided in unit 43. Other means for retaining
arms 47, 48 in a lockout position will be apparent to those
skilled in the art.
The capability to position arms 47, 48 into a lockout
position has been found to be desirable when reliable operation
of the guidance system is not possible because of crop or field
condi~ions. For example, reliable opera~ion may not be possible
(1) when weeds are encountered in a crop being harvested, (2)
whén harvesting a broadcast planted crop and t33 when harvesting
a crop in which there has been a substantial amount of crop
regrowth from a prior year. Also, it may be desirable to lock
out arms 47, 48 when the guidance control system is
malfunctioning, thereby avoiding or reducing the risk of further
damage to the system. Thus, when use of the guidance system 13
is not desirable, the arms 47, 48 may be safely stored in the
lockout position and re~oval of units 41, 43 is unnecessary.
When the guidance system is lo~ked out~ the operator steers or
guides the trac~or and harvester independently of the guidance
system.
- ~0 -

V SENSOR SWITCH ~30US ING
(;uid~nce control circuit 45 includes a pair of electrical
switches for 145, 147 ~FIG5. 2, 8) for detecting the aovement of
arms 47, 48 respectively~ Referring to FI(;S. 2 and 4, in order
5 to shield switch 145 and the upper end of shaft 79 containing
act~ator plate 95, a housing or enclosure 149 is provided. A
cover 157 (FIG. 7) for housing 149 is omitted for clarity in
FIG~ 2. It is also necessary that housing 149 permit access by
the operator to allow adjustment of switches 145, 147. Switches
145, 147 are adjustable so that the amount of movement of arms
47, 48 necessary to actuate switches 145, 147 may be set.
Housing 149 includes (1) a floor 151 on which switch 145 is
adjustably positioned, (2) a wall 153 fixed to floor 151 and
surrounding a portion of floor 151, (3) a cover 157 including a
roof 159 and a second wall 161 fixed to roof 159 and surro~nding
a portion of roof 159, and (4) a fastener 167 for retaining
cover 157 in place. Cover 157 fits over wall 153 with the
exposed end of walls 153, 161 engaged and with the second wall
161 resting on floor 151, thereby providing a complete enclosure
20 for switch 145 and the upper end of pivot shaft 79 having
actuator arm ~5 mounted thereon. Roof 159 further includes an
exposed flange 165 which extends around the exterior of the
upper edge of wall 153 to provide a defined seating relationship
of cover 157 on wall 153. Fastener 167 includes a bolt 169
25 fixed to floor 151 and a strap 171 fixQd to cover 157 and having
an open ended slot 173 engageable around the bolt 169. Bolt 169
has a wing nut 175 threaded thereon for firmly attaching strap
17i to bolt 169.
Switch 145 is adj~lstably positioned on floor 151 by way of a
30 pair of screws mounted through switch 145 and extending through
slotted openings ~not shown) in floor 151. Screws 177, 179 are
screwed into a pla~e 181 beneath floor 151. Swi~ch 145 is
adjustably positioned to enable the point at which s ~i~ch 145 is
opened and closed by movement Ol' arm 47 to be set. FIGo 2
35 illustrates switch 145 in the closed position with ~ switch
follower 183 engaged with one end of actuator plate g5O In the
open position, follower 183 is engaged with the left side of
actuator plate 95.
Elousing 149 must fit withisl ~he as~ailable space within
40 fender 23 of divider 1~ and be easily removeable to permi~

1 access to switch 145 for adjustment. As may be seen in FIG. 4,
to remove cover 157, first wing nut 175 is lcosened, second
cover 157 is moved upwardly to disengage flange 165 from wall
161, and then cover 157 may be moved rearwardly to expose switch
145. By having wall 161 fixed ~o floor 151 and by having wall
153 fixed to cover 165, it is possible to provide a durable and
rigid enclosure for switch 145 and at the same time provide easy
access to and exposure of switch 145 to the operator when
adjustment of switch 145 is necessary.
. VI. GUIDANCE_NTROL CIRCUIT
Reference is now made to FI~. 8 which shows a circ~it
diagram of guidance control circuit 45 which controls the
operation of hydraulic cylinder 33 connected to harvester tongue
16 responsive to row crop sensing units 41, 43 or to a manual
override switch 184. Circuit 45 includes normally open/ left
and right sensor switches 145; 147 which are mounted,
respectively, in sensing units 41, 43. One side of switches
145, 147 is connected to a power source viP line 182 and an on-
off switch 186. Switch 145, 147 are positioned to be opened and
closed responsive to movement of arms 47, 48~ Circ~it 45
includes a conventional control value 185 for operating cylinder
33 responsive to signals from sensor switches 145, 147. Control
valve 191 is designed for connection to a closed center
hydraulic system of the tractor used for towing the harvester.
Also, it may be modified tthrough conventional means not shown~
for use with an open cen~er hydraulic system. Control valve 185
includes a ri~ht, solenoid operated, pilot valve 187 and a left,
soIenoid operated, pilot valve 189 which are operatively
connected to pilot operated, fo~r way, three position valve 191
for retracting cylinder 33 to shift harvester 11 to the right
and for extending cylinder 33 to shift harvester 11 to the left
respectively. Valve 191 is in turn connected to double acting
cylinder 33 via lines 195, 197. Pilot valves 187, 189 and pilot
operated value 191 are oonnected to a hydraulic pump 193 of the
tractor used to tow the harvester via line 196~ Oil is returned
to a reservoir 199 of the towîng tr~ctor from cylinder 33 via
pilot valves 187, 189 and pilot operated valve 191 through line
200.
To prevent the simultaneous generation of signals from both
switches 145, 147, a pair of relays 201, 203 are connected in
- 12 -

3~
circuit with switches 145, 147 and control valve 185. Relay 201
includes (1) a normally closed switch 205 connected between one
side of switch 145 and a solenoid 207 of pilot valve 189 and (2)
a relay coil connected between ground and one side of switch
1~i7. Relay 203 includes a (1) normally closed relay switch 211
connected between one side of switch 147 and a solenoid 213 of
pilot valve 187 and (2) a relay coil 215 connected between
ground and one side of switch 145. Closure of left sensor
switch 145 sends an electrical signal through relay switch 201
to left pilot valve 189 to actuate control valve 185 and in turn
hydraulic cylinder 33, and also energizes relay coil 215 opening
normally closed relay switch 211. Energization of relay coil
215 opens the circui~ path between right sensor switch 147 and
pilot valve 187. Simarily, closure of right sensor switch 147
sends a signal through normally closed relay swi~ch 211 to
actuate pilot valve 187 to actl~ate in turn control valve 185 and
hydraulic cylinder 133, and energizes relay coil 209 to open
normally closed relay switch 205. Energi2ation of relay coil
209 opens the circui~ path betsleen left sensor switch 14S and
pilot valve 189. As will be apparent, closure of one of the
sensor switches 145, 147 prevents the transmission of a signal
from the other switch to the corresponding one of pilot valves
187, 189. During any time when both switches 145, 147 are
closed, both relay switches 205, 211 are open and no signal is
transmittable to control valve 1850
Gllidance control circuit 45 further includes manual override
switch 184 which generates a control signal for operation of
hydraulic cylinder 33 which has priority over any contradictory
signal generated automatically either by switch 145 or switch
147. Manual override switch 184 may be a single pole, double
throw switch. The movable contact 218 of switch 184 is
connected to a power source. One contact 21~ of switch 184 is
connected to solenoid 213 of right pilot valve 187 and the other
con'cact 221 of switch 184 is connected to solenoid 207 of left
pilo~ valve 189. Contact 219 o~ switch 184 is also connected
via a diode 223 to relay coil 209 for openir.3 normally closed
relay switch 205 connected in circuit with switch 145. Con'cact
221 of switch 184 is connec~ed via diode 225 to relay coil 215
for opening normally closed relay switch 211 connected in
ci~cuit with switch 147.
-- 13 --

3~8
1 As may be seen if the operator wishes ~o move the harvester
to the right by closure of switch 184 to contact 219 an
automatically generated contradictory signal from switch 145 is
prohibited from being transmitted to pilot valve 189 by ~he
opening of normally closed relay switch 205. Similarly, if the
operator desires to move the harvester to the left by closure of
switch 1~4 to contact ~21 an automatically generated
contradictory signal fro~ switch 147 is prohibited fro~ being
tran~mitted to pilot valve 187 by the opening of normally closed
relay switch 211.
Thus, through relays 201, 203 operable by automatic sensor
switches 145, 147 and by manual override switch 184, the
generation of contradictory ignals by switches 145, 147 is
prohibited, manual switch 184 has priority over sensor switches
145, 147 irrespective of their position and again contradictory
signals from manual switch 184 and one of sensor switches 145,
147 is prohibi~ed. It is clear these functions are accomplished
in a reliable, simplified manner.
VII. OPERATION
In summary, guidance system 13 operates by the engagement o~
a crop stalk 18 with one of the crop engaging arms 47, 48.
Assuming arm 47 is engaged by stalk 18, arm 47 is rotated
clockwise (FIG. 1) to in turn rotate actuator plate 95 clockwise
~FIG. 2) to close normally open sensor switch 145. Referring to
FIG. 8, closure of switch 145 generates an electrical signal
which is transmitted through normally closed relay switch 205 to
solenoid 207 of pilot valve 189. Solenoid 207 is actua~ed to
cl~se the normally open pilot valve 189. Closure of valve 189
shifts pilot operated valve 191 to the left in FIG. 8. The
shifting of valve 191 to the left connects the closed end of
hydraulic cylinder 33 to pump 193 to extend the piston rod 37
from housing 35 which moves tongue 16 clockwise and shifts
harvester 11 to the left. Return oil flow from cylinder 33 is
transmitted through lines 197, 200 to reservoir 199,
Closure of switch 145 energizes relay coil 215 to open
normally closed relay switch 211. The opening of the relay
switch 211 prevents a second~ contradictory signal from switch
1~7 from being transmitted to pilot valve 1~7 simultaneously
with the transmission of a signal from switch 145 to pilot valve
14 -

1 1890 During the period when both switches 145, 147 are closed,
no signal is transmittable to control valve lB50
Similarly, if switch 145 is in its normally open position
and switch 147 is closed by a crop stalk 18 engaging crop
engaging arm 48, a signal from switch 147 is transmit~ed ~o
solenoid 213 of pilot valve 187 via normally closed relay switch
211. Pilot valve 187 is then shifted from its normally open
po~ition to a closed condition which in turn shifts pilot
operated valve 191 to the right. This connects hydraulic pump
193 to the open or piston rod end of cylinder 33 and retracts
piston rod 37 which shifts tongue 16 counterclockwise and shifts
harvester 11 to the right. Return oil flow from cylinder 33 is
transmitted through lines 195, 200 to reservoir 199~ The
closure of switch 147 also energizes coil 209 opening normally
closed relay switch 205. This prevents a contradictory signal
from switch 145 from being transmitted to pilot valve 189.
The operator through switch 184 always has the capability to
manually override automatically generated signals from one or
both of switches 145, 147 and thus may position harvester 11
~0 without regard to the condition of switches 145, 147. This
control function is important to initially position the
harvester in alignment with crop rows to be harvested, to
overcome spurious signals generated by weeds or other obstacles
and to overrcome other conditions such as where the crop may not
be in well defined rows in some portions of a field.
The invention herein has been explained in connection with
ce~tain preferred embodiments thereofO It will be appreciated
by those skilled in the art that other variations and
modifications of these preferred embodiments are possible. For
example, row crop sensing units 41, 43 have been described only
in connection with a pull type harvester~ It will be
appreciated that such units are equally applicable to headers
used on self-propelled harves~ers. In this instance~ the
sen~ing units will generate a mechanical signal which will be
converted to an electrical signal for use in control~in~ an
automatic steering system for the self-propelled harvester.
Accordingly, it is intended that all such variations and
modifications which are within the true spirit and scope of this
invention be comprehended within the scope of the appended
claims.

Representative Drawing

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Administrative Status

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Event History

Description Date
Inactive: IPC expired 2018-01-01
Inactive: IPC from MCD 2006-03-11
Inactive: IPC from MCD 2006-03-11
Inactive: IPC from MCD 2006-03-11
Inactive: IPC from MCD 2006-03-11
Grant by Issuance 1987-06-23
Inactive: Expired (old Act Patent) latest possible expiry date 1984-08-22

Abandonment History

There is no abandonment history.

Owners on Record

Note: Records showing the ownership history in alphabetical order.

Current Owners on Record
DEERE & COMPANY
Past Owners on Record
HAROLD E. DE BUHR
Past Owners that do not appear in the "Owners on Record" listing will appear in other documentation within the application.
Documents

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Document
Description 
Date
(yyyy-mm-dd) 
Number of pages   Size of Image (KB) 
Abstract 1993-09-25 1 15
Claims 1993-09-25 1 31
Cover Page 1993-09-25 1 16
Drawings 1993-09-25 4 125
Descriptions 1993-09-25 15 784